/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // needed for theming // FIXME: move theming code to salnativewidgets.cxx #include #include #include const int nMinBlinkCursorDelay = 500; AquaSalFrame* AquaSalFrame::s_pCaptureFrame = nullptr; AquaSalFrame::AquaSalFrame( SalFrame* pParent, SalFrameStyleFlags salFrameStyle ) : mpNSWindow(nil), mpNSView(nil), mpDockMenuEntry(nil), mpGraphics(nullptr), mpParent(nullptr), mnMinWidth(0), mnMinHeight(0), mnMaxWidth(0), mnMaxHeight(0), mbGraphics(false), mbFullScreen( false ), mbShown(false), mbInitShow(true), mbPositioned(false), mbSized(false), mbPresentation( false ), mnStyle( salFrameStyle ), mnStyleMask( 0 ), mnLastEventTime( 0 ), mnLastModifierFlags( 0 ), mpMenu( nullptr ), mnExtStyle( 0 ), mePointerStyle( PointerStyle::Arrow ), mrClippingPath( nullptr ), mnICOptions( InputContextFlags::NONE ), mnBlinkCursorDelay( nMinBlinkCursorDelay ), mbForceFlush( false ) { mpParent = dynamic_cast(pParent); initWindowAndView(); SalData* pSalData = GetSalData(); pSalData->mpInstance->insertFrame( this ); NSUserDefaults *userDefaults = [NSUserDefaults standardUserDefaults]; // tdf#150177 Limit minimum blink cursor rate // This bug occurs when the values for NSTextInsertionPointBlinkPeriodOn or // NSTextInsertionPointBlinkPeriodOff are set to zero or close to zero. // LibreOffice becomes very sluggish opening documents when either is set // at 100 milliseconds or less so set the blink rate to the maximum of // nMinBlinkCursorDelay, NSTextInsertionPointBlinkPeriodOn, and // NSTextInsertionPointBlinkPeriodOff. mnBlinkCursorDelay = nMinBlinkCursorDelay; if (userDefaults != nil) { id setting = [userDefaults objectForKey: @"NSTextInsertionPointBlinkPeriodOn"]; if (setting && [setting isKindOfClass:[NSNumber class]]) mnBlinkCursorDelay = std::max(mnBlinkCursorDelay, [setting intValue]); setting = [userDefaults objectForKey: @"NSTextInsertionPointBlinkPeriodOff"]; if (setting && [setting isKindOfClass:[NSNumber class]]) mnBlinkCursorDelay = std::max(mnBlinkCursorDelay, [setting intValue]); } } AquaSalFrame::~AquaSalFrame() { if (mbFullScreen) doShowFullScreen(false, maGeometry.screen()); assert( GetSalData()->mpInstance->IsMainThread() ); // if the frame is destroyed and has the current menubar // set the default menubar if( mpMenu && mpMenu->mbMenuBar && AquaSalMenu::pCurrentMenuBar == mpMenu ) AquaSalMenu::setDefaultMenu(); // cleanup clipping stuff doResetClipRegion(); [SalFrameView unsetMouseFrame: this]; SalData* pSalData = GetSalData(); pSalData->mpInstance->eraseFrame( this ); pSalData->maPresentationFrames.remove( this ); SAL_WARN_IF( this == s_pCaptureFrame, "vcl", "capture frame destroyed" ); if( this == s_pCaptureFrame ) s_pCaptureFrame = nullptr; delete mpGraphics; if( mpDockMenuEntry ) { NSMenu* pDock = AquaSalInstance::GetDynamicDockMenu(); // life cycle comment: the menu has ownership of the item, so no release [pDock removeItem: mpDockMenuEntry]; if ([pDock numberOfItems] != 0 && [[pDock itemAtIndex: 0] isSeparatorItem]) { [pDock removeItemAtIndex: 0]; } } if ( mpNSView ) { if ([mpNSView isKindOfClass:[SalFrameView class]]) [static_cast(mpNSView) revokeWrapper]; [mpNSView release]; } if ( mpNSWindow ) [mpNSWindow release]; } void AquaSalFrame::initWindowAndView() { OSX_SALDATA_RUNINMAIN( initWindowAndView() ) // initialize mirroring parameters // FIXME: screens changing NSScreen* pNSScreen = [mpNSWindow screen]; if( pNSScreen == nil ) pNSScreen = [NSScreen mainScreen]; maScreenRect = [pNSScreen frame]; // calculate some default geometry NSRect aVisibleRect = [pNSScreen visibleFrame]; CocoaToVCL( aVisibleRect ); maGeometry.setX(static_cast(aVisibleRect.origin.x + aVisibleRect.size.width / 10)); maGeometry.setY(static_cast(aVisibleRect.origin.y + aVisibleRect.size.height / 10)); maGeometry.setWidth(static_cast(aVisibleRect.size.width * 0.8)); maGeometry.setHeight(static_cast(aVisibleRect.size.height * 0.8)); // calculate style mask if( (mnStyle & SalFrameStyleFlags::FLOAT) || (mnStyle & SalFrameStyleFlags::OWNERDRAWDECORATION) ) mnStyleMask = NSWindowStyleMaskBorderless; else if( mnStyle & SalFrameStyleFlags::DEFAULT ) { mnStyleMask = NSWindowStyleMaskTitled | NSWindowStyleMaskMiniaturizable | NSWindowStyleMaskResizable | NSWindowStyleMaskClosable; // make default window "maximized" maGeometry.setX(static_cast(aVisibleRect.origin.x)); maGeometry.setY(static_cast(aVisibleRect.origin.y)); maGeometry.setWidth(static_cast(aVisibleRect.size.width)); maGeometry.setHeight(static_cast(aVisibleRect.size.height)); mbPositioned = mbSized = true; } else { if( mnStyle & SalFrameStyleFlags::MOVEABLE ) { mnStyleMask |= NSWindowStyleMaskTitled; if( mpParent == nullptr ) mnStyleMask |= NSWindowStyleMaskMiniaturizable; } if( mnStyle & SalFrameStyleFlags::SIZEABLE ) mnStyleMask |= NSWindowStyleMaskResizable; if( mnStyle & SalFrameStyleFlags::CLOSEABLE ) mnStyleMask |= NSWindowStyleMaskClosable; // documentation says anything other than NSWindowStyleMaskBorderless (=0) // should also include NSWindowStyleMaskTitled; if( mnStyleMask != 0 ) mnStyleMask |= NSWindowStyleMaskTitled; } if (Application::IsBitmapRendering()) return; // #i91990# support GUI-less (daemon) execution @try { mpNSWindow = [[SalFrameWindow alloc] initWithSalFrame: this]; mpNSView = [[SalFrameView alloc] initWithSalFrame: this]; } @catch ( id ) { std::abort(); } if( mnStyle & SalFrameStyleFlags::TOOLTIP ) [mpNSWindow setIgnoresMouseEvents: YES]; else // Related: tdf#155092 mouse events are now handled by tracking areas [mpNSWindow setAcceptsMouseMovedEvents: NO]; [mpNSWindow setHasShadow: YES]; [mpNSWindow setDelegate: static_cast >(mpNSWindow)]; [mpNSWindow setRestorable:NO]; // tdf#155092 use tracking areas instead of tracking rectangles // Apparently, the older, tracking rectangles selectors cause // unexpected window resizing upon the first mouse down after the // window has been manually resized so switch to the newer, // tracking areas selectors. Also, the NSTrackingInVisibleRect // option allows us to create one single tracking area that // resizes itself automatically over the lifetime of the view. // Note: for some unknown reason, both NSTrackingMouseMoved and // NSTrackingAssumeInside are necessary options for this fix // to work. NSTrackingArea *pTrackingArea = [[NSTrackingArea alloc] initWithRect: [mpNSView bounds] options: ( NSTrackingMouseEnteredAndExited | NSTrackingMouseMoved | NSTrackingActiveAlways | NSTrackingAssumeInside | NSTrackingInVisibleRect ) owner: mpNSView userInfo: nil]; [mpNSView addTrackingArea: pTrackingArea]; [pTrackingArea release]; maSysData.mpNSView = mpNSView; UpdateFrameGeometry(); [mpNSWindow setContentView: mpNSView]; } void AquaSalFrame::CocoaToVCL( NSRect& io_rRect, bool bRelativeToScreen ) { if( bRelativeToScreen ) io_rRect.origin.y = maScreenRect.size.height - (io_rRect.origin.y+io_rRect.size.height); else io_rRect.origin.y = maGeometry.height() - (io_rRect.origin.y+io_rRect.size.height); } void AquaSalFrame::VCLToCocoa( NSRect& io_rRect, bool bRelativeToScreen ) { if( bRelativeToScreen ) io_rRect.origin.y = maScreenRect.size.height - (io_rRect.origin.y+io_rRect.size.height); else io_rRect.origin.y = maGeometry.height() - (io_rRect.origin.y+io_rRect.size.height); } void AquaSalFrame::CocoaToVCL( NSPoint& io_rPoint, bool bRelativeToScreen ) { if( bRelativeToScreen ) io_rPoint.y = maScreenRect.size.height - io_rPoint.y; else io_rPoint.y = maGeometry.height() - io_rPoint.y; } void AquaSalFrame::VCLToCocoa( NSPoint& io_rPoint, bool bRelativeToScreen ) { if( bRelativeToScreen ) io_rPoint.y = maScreenRect.size.height - io_rPoint.y; else io_rPoint.y = maGeometry.height() - io_rPoint.y; } void AquaSalFrame::screenParametersChanged() { OSX_SALDATA_RUNINMAIN( screenParametersChanged() ) sal::aqua::resetTotalScreenBounds(); sal::aqua::resetWindowScaling(); UpdateFrameGeometry(); if( mpGraphics ) mpGraphics->updateResolution(); if (!mbGeometryDidChange) return; CallCallback( SalEvent::DisplayChanged, nullptr ); } SalGraphics* AquaSalFrame::AcquireGraphics() { if ( mbGraphics ) return nullptr; if ( !mpGraphics ) { mpGraphics = new AquaSalGraphics; mpGraphics->SetWindowGraphics( this ); } mbGraphics = true; return mpGraphics; } void AquaSalFrame::ReleaseGraphics( SalGraphics *pGraphics ) { SAL_WARN_IF( pGraphics != mpGraphics, "vcl", "graphics released on wrong frame" ); mbGraphics = false; } bool AquaSalFrame::PostEvent(std::unique_ptr pData) { GetSalData()->mpInstance->PostEvent( this, pData.release(), SalEvent::UserEvent ); return true; } void AquaSalFrame::SetTitle(const OUString& rTitle) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( SetTitle(rTitle) ) // #i113170# may not be the main thread if called from UNO API SalData::ensureThreadAutoreleasePool(); NSString* pTitle = CreateNSString( rTitle ); [mpNSWindow setTitle: pTitle]; // create an entry in the dock menu const SalFrameStyleFlags nAppWindowStyle = SalFrameStyleFlags::CLOSEABLE | SalFrameStyleFlags::MOVEABLE; if( mpParent == nullptr && (mnStyle & nAppWindowStyle) == nAppWindowStyle ) { if( mpDockMenuEntry == nullptr ) { NSMenu* pDock = AquaSalInstance::GetDynamicDockMenu(); if ([pDock numberOfItems] != 0) { NSMenuItem* pTopItem = [pDock itemAtIndex: 0]; if ( [pTopItem hasSubmenu] ) [pDock insertItem: [NSMenuItem separatorItem] atIndex: 0]; } mpDockMenuEntry = [pDock insertItemWithTitle: pTitle action: @selector(dockMenuItemTriggered:) keyEquivalent: @"" atIndex: 0]; [mpDockMenuEntry setTarget: mpNSWindow]; // TODO: image (either the generic window image or an icon // check mark (for "main" window ?) } else [mpDockMenuEntry setTitle: pTitle]; } if (pTitle) [pTitle release]; } void AquaSalFrame::SetIcon( sal_uInt16 ) { } void AquaSalFrame::SetRepresentedURL( const OUString& i_rDocURL ) { OSX_SALDATA_RUNINMAIN( SetRepresentedURL( i_rDocURL ) ) if( comphelper::isFileUrl(i_rDocURL) ) { OUString aSysPath; osl_getSystemPathFromFileURL( i_rDocURL.pData, &aSysPath.pData ); NSString* pStr = CreateNSString( aSysPath ); if( pStr ) { [pStr autorelease]; [mpNSWindow setRepresentedFilename: pStr]; } } } void AquaSalFrame::initShow() { OSX_SALDATA_RUNINMAIN( initShow() ) mbInitShow = false; if( ! mbPositioned && ! mbFullScreen ) { AbsoluteScreenPixelRectangle aScreenRect; GetWorkArea( aScreenRect ); if( mpParent ) // center relative to parent { // center on parent tools::Long nNewX = mpParent->maGeometry.x() + (static_cast(mpParent->maGeometry.width()) - static_cast(maGeometry.width())) / 2; if( nNewX < aScreenRect.Left() ) nNewX = aScreenRect.Left(); if (static_cast(nNewX + maGeometry.width()) > aScreenRect.Right()) nNewX = aScreenRect.Right() - maGeometry.width() - 1; tools::Long nNewY = mpParent->maGeometry.y() + (static_cast(mpParent->maGeometry.height()) - static_cast(maGeometry.height())) / 2; if( nNewY < aScreenRect.Top() ) nNewY = aScreenRect.Top(); if( nNewY > aScreenRect.Bottom() ) nNewY = aScreenRect.Bottom() - maGeometry.height() - 1; SetPosSize( nNewX - mpParent->maGeometry.x(), nNewY - mpParent->maGeometry.y(), 0, 0, SAL_FRAME_POSSIZE_X | SAL_FRAME_POSSIZE_Y ); } else if( ! (mnStyle & SalFrameStyleFlags::SIZEABLE) ) { // center on screen tools::Long nNewX = (aScreenRect.GetWidth() - maGeometry.width()) / 2; tools::Long nNewY = (aScreenRect.GetHeight() - maGeometry.height()) / 2; SetPosSize( nNewX, nNewY, 0, 0, SAL_FRAME_POSSIZE_X | SAL_FRAME_POSSIZE_Y ); } } // make sure the view is present in the wrapper list before any children receive focus if (mpNSView && [mpNSView isKindOfClass:[SalFrameView class]]) [static_cast(mpNSView) registerWrapper]; } void AquaSalFrame::SendPaintEvent( const tools::Rectangle* pRect ) { OSX_SALDATA_RUNINMAIN( SendPaintEvent( pRect ) ) SalPaintEvent aPaintEvt(0, 0, maGeometry.width(), maGeometry.height(), true); if( pRect ) { aPaintEvt.mnBoundX = pRect->Left(); aPaintEvt.mnBoundY = pRect->Top(); aPaintEvt.mnBoundWidth = pRect->GetWidth(); aPaintEvt.mnBoundHeight = pRect->GetHeight(); } CallCallback(SalEvent::Paint, &aPaintEvt); } void AquaSalFrame::Show(bool bVisible, bool bNoActivate) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( Show(bVisible, bNoActivate) ) // tdf#152173 Don't display tooltip windows when application is inactive // Starting with macOS 13 Ventura, inactive applications receive mouse // move events so when LibreOffice is inactive, a mouse move event causes // a tooltip to be displayed. Since the tooltip window is attached to its // parent window (to ensure that the tooltip is above the parent window), // displaying a tooltip pulls the parent window in front of the windows // of all other inactive applications. // Also, don't display tooltips when mousing over non-key windows even if // the application is active as the tooltip window will pull the non-key // window in front of the key window. if (bVisible && (mnStyle & SalFrameStyleFlags::TOOLTIP)) { if (![NSApp isActive]) return; if (mpParent) { // tdf#157565 show tooltip if any parent window is the key window bool bKeyWindowFound = false; NSWindow *pParent = mpParent->mpNSWindow; while (pParent) { if ([pParent isKeyWindow]) { bKeyWindowFound = true; break; } pParent = [pParent parentWindow]; } if (!bKeyWindowFound) return; } } mbShown = bVisible; if(bVisible) { if( mbInitShow ) initShow(); CallCallback(SalEvent::Resize, nullptr); // trigger filling our backbuffer SendPaintEvent(); if( bNoActivate || [mpNSWindow canBecomeKeyWindow] == NO ) [mpNSWindow orderFront: NSApp]; else [mpNSWindow makeKeyAndOrderFront: NSApp]; if( mpParent ) { /* #i92674# #i96433# we do not want an invisible parent to show up (which adding a visible child implicitly does). However we also do not want a parentless toolbar. HACK: try to decide when we should not insert a child to its parent floaters and ownerdraw windows have not yet shown up in cases where we don't want the parent to become visible */ if( mpParent->mbShown || (mnStyle & (SalFrameStyleFlags::OWNERDRAWDECORATION | SalFrameStyleFlags::FLOAT) ) ) { [mpParent->mpNSWindow addChildWindow: mpNSWindow ordered: NSWindowAbove]; } } if( mbPresentation ) [mpNSWindow makeMainWindow]; } else { // if the frame holding the current menubar gets hidden // show the default menubar if( mpMenu && mpMenu->mbMenuBar && AquaSalMenu::pCurrentMenuBar == mpMenu ) AquaSalMenu::setDefaultMenu(); // #i90440# #i94443# work around the focus going back to some other window // if a child gets hidden for a parent window if( mpParent && mpParent->mbShown && [mpNSWindow isKeyWindow] ) [mpParent->mpNSWindow makeKeyAndOrderFront: NSApp]; [SalFrameView unsetMouseFrame: this]; if( mpParent && [mpNSWindow parentWindow] == mpParent->mpNSWindow ) [mpParent->mpNSWindow removeChildWindow: mpNSWindow]; [mpNSWindow orderOut: NSApp]; } } void AquaSalFrame::SetMinClientSize( tools::Long nWidth, tools::Long nHeight ) { OSX_SALDATA_RUNINMAIN( SetMinClientSize( nWidth, nHeight ) ) mnMinWidth = nWidth; mnMinHeight = nHeight; if( mpNSWindow ) { // Always add the decoration as the dimension concerns only // the content rectangle nWidth += maGeometry.leftDecoration() + maGeometry.rightDecoration(); nHeight += maGeometry.topDecoration() + maGeometry.bottomDecoration(); NSSize aSize = { static_cast(nWidth), static_cast(nHeight) }; // Size of full window (content+structure) although we only // have the client size in arguments [mpNSWindow setMinSize: aSize]; } } void AquaSalFrame::SetMaxClientSize( tools::Long nWidth, tools::Long nHeight ) { OSX_SALDATA_RUNINMAIN( SetMaxClientSize( nWidth, nHeight ) ) mnMaxWidth = nWidth; mnMaxHeight = nHeight; if( mpNSWindow ) { // Always add the decoration as the dimension concerns only // the content rectangle nWidth += maGeometry.leftDecoration() + maGeometry.rightDecoration(); nHeight += maGeometry.topDecoration() + maGeometry.bottomDecoration(); // Carbon windows can't have a size greater than 32767x32767 if (nWidth>32767) nWidth=32767; if (nHeight>32767) nHeight=32767; NSSize aSize = { static_cast(nWidth), static_cast(nHeight) }; // Size of full window (content+structure) although we only // have the client size in arguments [mpNSWindow setMaxSize: aSize]; } } void AquaSalFrame::GetClientSize( tools::Long& rWidth, tools::Long& rHeight ) { if (mbShown || mbInitShow || Application::IsBitmapRendering()) { rWidth = maGeometry.width(); rHeight = maGeometry.height(); } else { rWidth = 0; rHeight = 0; } } SalEvent AquaSalFrame::PreparePosSize(tools::Long nX, tools::Long nY, tools::Long nWidth, tools::Long nHeight, sal_uInt16 nFlags) { SalEvent nEvent = SalEvent::NONE; assert(mpNSWindow || Application::IsBitmapRendering()); if (nFlags & (SAL_FRAME_POSSIZE_X | SAL_FRAME_POSSIZE_Y)) { mbPositioned = true; nEvent = SalEvent::Move; } if (nFlags & (SAL_FRAME_POSSIZE_WIDTH | SAL_FRAME_POSSIZE_HEIGHT)) { mbSized = true; nEvent = (nEvent == SalEvent::Move) ? SalEvent::MoveResize : SalEvent::Resize; } if (Application::IsBitmapRendering()) { if (nFlags & SAL_FRAME_POSSIZE_X) maGeometry.setX(nX); if (nFlags & SAL_FRAME_POSSIZE_Y) maGeometry.setY(nY); if (nFlags & SAL_FRAME_POSSIZE_WIDTH) { maGeometry.setWidth(nWidth); if (mnMaxWidth > 0 && maGeometry.width() > mnMaxWidth) maGeometry.setWidth(mnMaxWidth); if (mnMinWidth > 0 && maGeometry.width() < mnMinWidth) maGeometry.setWidth(mnMinWidth); } if (nFlags & SAL_FRAME_POSSIZE_HEIGHT) { maGeometry.setHeight(nHeight); if (mnMaxHeight > 0 && maGeometry.height() > mnMaxHeight) maGeometry.setHeight(mnMaxHeight); if (mnMinHeight > 0 && maGeometry.height() < mnMinHeight) maGeometry.setHeight(mnMinHeight); } if (nEvent != SalEvent::NONE) CallCallback(nEvent, nullptr); } return nEvent; } void AquaSalFrame::SetWindowState(const vcl::WindowData* pState) { if (!mpNSWindow && !Application::IsBitmapRendering()) return; OSX_SALDATA_RUNINMAIN( SetWindowState( pState ) ) sal_uInt16 nFlags = 0; nFlags |= ((pState->mask() & vcl::WindowDataMask::X) ? SAL_FRAME_POSSIZE_X : 0); nFlags |= ((pState->mask() & vcl::WindowDataMask::Y) ? SAL_FRAME_POSSIZE_Y : 0); nFlags |= ((pState->mask() & vcl::WindowDataMask::Width) ? SAL_FRAME_POSSIZE_WIDTH : 0); nFlags |= ((pState->mask() & vcl::WindowDataMask::Height) ? SAL_FRAME_POSSIZE_HEIGHT : 0); SalEvent nEvent = PreparePosSize(pState->x(), pState->y(), pState->width(), pState->height(), nFlags); if (Application::IsBitmapRendering()) return; // set normal state NSRect aStateRect = [mpNSWindow frame]; aStateRect = [NSWindow contentRectForFrameRect: aStateRect styleMask: mnStyleMask]; CocoaToVCL(aStateRect); if (pState->mask() & vcl::WindowDataMask::X) aStateRect.origin.x = float(pState->x()); if (pState->mask() & vcl::WindowDataMask::Y) aStateRect.origin.y = float(pState->y()); if (pState->mask() & vcl::WindowDataMask::Width) aStateRect.size.width = float(pState->width()); if (pState->mask() & vcl::WindowDataMask::Height) aStateRect.size.height = float(pState->height()); VCLToCocoa(aStateRect); aStateRect = [NSWindow frameRectForContentRect: aStateRect styleMask: mnStyleMask]; [mpNSWindow setFrame: aStateRect display: NO]; if (pState->state() == vcl::WindowState::Minimized) [mpNSWindow miniaturize: NSApp]; else if ([mpNSWindow isMiniaturized]) [mpNSWindow deminiaturize: NSApp]; /* ZOOMED is not really maximized (actually it toggles between a user set size and the program specified one), but comes closest since the default behavior is "maximized" if the user did not intervene */ if (pState->state() == vcl::WindowState::Maximized) { if (![mpNSWindow isZoomed]) [mpNSWindow zoom: NSApp]; } else { if ([mpNSWindow isZoomed]) [mpNSWindow zoom: NSApp]; } // get new geometry UpdateFrameGeometry(); // send event that we were moved/sized if( nEvent != SalEvent::NONE ) CallCallback( nEvent, nullptr ); if (mbShown) { // trigger filling our backbuffer SendPaintEvent(); // tell the system the views need to be updated [mpNSWindow display]; } } bool AquaSalFrame::GetWindowState(vcl::WindowData* pState) { if (!mpNSWindow) { if (Application::IsBitmapRendering()) { pState->setMask(vcl::WindowDataMask::PosSizeState); pState->setPosSize(maGeometry.posSize()); pState->setState(vcl::WindowState::Normal); return true; } return false; } OSX_SALDATA_RUNINMAIN_UNION( GetWindowState( pState ), boolean ) pState->setMask(vcl::WindowDataMask::PosSizeState); NSRect aStateRect = [mpNSWindow frame]; aStateRect = [NSWindow contentRectForFrameRect: aStateRect styleMask: mnStyleMask]; CocoaToVCL( aStateRect ); pState->setX(static_cast(aStateRect.origin.x)); pState->setY(static_cast(aStateRect.origin.y)); pState->setWidth(static_cast(aStateRect.size.width)); pState->setHeight(static_cast(aStateRect.size.height)); if( [mpNSWindow isMiniaturized] ) pState->setState(vcl::WindowState::Minimized); else if( ! [mpNSWindow isZoomed] ) pState->setState(vcl::WindowState::Normal); else pState->setState(vcl::WindowState::Maximized); return true; } void AquaSalFrame::SetScreenNumber(unsigned int nScreen) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( SetScreenNumber( nScreen ) ) NSArray* pScreens = [NSScreen screens]; NSScreen* pScreen = nil; if( pScreens && nScreen < [pScreens count] ) { // get new screen frame pScreen = [pScreens objectAtIndex: nScreen]; NSRect aNewScreen = [pScreen frame]; // get current screen frame pScreen = [mpNSWindow screen]; if( pScreen ) { NSRect aCurScreen = [pScreen frame]; if( aCurScreen.origin.x != aNewScreen.origin.x || aCurScreen.origin.y != aNewScreen.origin.y ) { NSRect aFrameRect = [mpNSWindow frame]; aFrameRect.origin.x += aNewScreen.origin.x - aCurScreen.origin.x; aFrameRect.origin.y += aNewScreen.origin.y - aCurScreen.origin.y; [mpNSWindow setFrame: aFrameRect display: NO]; UpdateFrameGeometry(); } } } } void AquaSalFrame::SetApplicationID( const OUString &/*rApplicationID*/ ) { } void AquaSalFrame::ShowFullScreen( bool bFullScreen, sal_Int32 nDisplay ) { doShowFullScreen(bFullScreen, nDisplay); } void AquaSalFrame::doShowFullScreen( bool bFullScreen, sal_Int32 nDisplay ) { if (!mpNSWindow) { if (Application::IsBitmapRendering() && bFullScreen) SetPosSize(0, 0, 1024, 768, SAL_FRAME_POSSIZE_WIDTH | SAL_FRAME_POSSIZE_HEIGHT); return; } SAL_INFO("vcl.osx", __func__ << ": mbFullScreen=" << mbFullScreen << ", bFullScreen=" << bFullScreen); if( mbFullScreen == bFullScreen ) return; OSX_SALDATA_RUNINMAIN( ShowFullScreen( bFullScreen, nDisplay ) ) mbFullScreen = bFullScreen; if( bFullScreen ) { // hide the dock and the menubar if we are on the menu screen // which is always on index 0 according to documentation bool bHideMenu = (nDisplay == 0); NSRect aNewContentRect = NSZeroRect; // get correct screen NSScreen* pScreen = nil; NSArray* pScreens = [NSScreen screens]; if( pScreens ) { if( nDisplay >= 0 && o3tl::make_unsigned(nDisplay) < [pScreens count] ) pScreen = [pScreens objectAtIndex: nDisplay]; else { // this means span all screens bHideMenu = true; NSEnumerator* pEnum = [pScreens objectEnumerator]; while( (pScreen = [pEnum nextObject]) != nil ) { NSRect aScreenRect = [pScreen frame]; if( aScreenRect.origin.x < aNewContentRect.origin.x ) { aNewContentRect.size.width += aNewContentRect.origin.x - aScreenRect.origin.x; aNewContentRect.origin.x = aScreenRect.origin.x; } if( aScreenRect.origin.y < aNewContentRect.origin.y ) { aNewContentRect.size.height += aNewContentRect.origin.y - aScreenRect.origin.y; aNewContentRect.origin.y = aScreenRect.origin.y; } if( aScreenRect.origin.x + aScreenRect.size.width > aNewContentRect.origin.x + aNewContentRect.size.width ) aNewContentRect.size.width = aScreenRect.origin.x + aScreenRect.size.width - aNewContentRect.origin.x; if( aScreenRect.origin.y + aScreenRect.size.height > aNewContentRect.origin.y + aNewContentRect.size.height ) aNewContentRect.size.height = aScreenRect.origin.y + aScreenRect.size.height - aNewContentRect.origin.y; } } } if( aNewContentRect.size.width == 0 && aNewContentRect.size.height == 0 ) { if( pScreen == nil ) pScreen = [mpNSWindow screen]; if( pScreen == nil ) pScreen = [NSScreen mainScreen]; aNewContentRect = [pScreen frame]; } if( bHideMenu ) [NSMenu setMenuBarVisible:NO]; maFullScreenRect = [mpNSWindow frame]; [mpNSWindow setFrame: [NSWindow frameRectForContentRect: aNewContentRect styleMask: mnStyleMask] display: mbShown ? YES : NO]; } else { [mpNSWindow setFrame: maFullScreenRect display: mbShown ? YES : NO]; // show the dock and the menubar [NSMenu setMenuBarVisible:YES]; } UpdateFrameGeometry(); if (mbShown) { CallCallback(SalEvent::MoveResize, nullptr); // trigger filling our backbuffer SendPaintEvent(); } } void AquaSalFrame::StartPresentation( bool bStart ) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( StartPresentation( bStart ) ) if( bStart ) { GetSalData()->maPresentationFrames.push_back( this ); IOPMAssertionCreateWithName(kIOPMAssertionTypeNoDisplaySleep, kIOPMAssertionLevelOn, CFSTR("LibreOffice presentation running"), &mnAssertionID); [mpNSWindow setLevel: NSPopUpMenuWindowLevel]; if( mbShown ) [mpNSWindow makeMainWindow]; } else { GetSalData()->maPresentationFrames.remove( this ); IOPMAssertionRelease(mnAssertionID); [mpNSWindow setLevel: NSNormalWindowLevel]; } } void AquaSalFrame::SetAlwaysOnTop( bool ) { } void AquaSalFrame::ToTop(SalFrameToTop nFlags) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( ToTop( nFlags ) ) if( ! (nFlags & SalFrameToTop::RestoreWhenMin) ) { if( ! [mpNSWindow isVisible] || [mpNSWindow isMiniaturized] ) return; } if( nFlags & SalFrameToTop::GrabFocus ) [mpNSWindow makeKeyAndOrderFront: NSApp]; else [mpNSWindow orderFront: NSApp]; } NSCursor* AquaSalFrame::getCurrentCursor() { OSX_SALDATA_RUNINMAIN_POINTER( getCurrentCursor(), NSCursor* ) NSCursor* pCursor = nil; switch( mePointerStyle ) { case PointerStyle::Text: pCursor = [NSCursor IBeamCursor]; break; case PointerStyle::Cross: pCursor = [NSCursor crosshairCursor]; break; case PointerStyle::Hand: case PointerStyle::Move: pCursor = [NSCursor openHandCursor]; break; case PointerStyle::NSize: pCursor = [NSCursor resizeUpCursor]; break; case PointerStyle::SSize: pCursor = [NSCursor resizeDownCursor]; break; case PointerStyle::ESize: pCursor = [NSCursor resizeRightCursor]; break; case PointerStyle::WSize: pCursor = [NSCursor resizeLeftCursor]; break; case PointerStyle::Arrow: pCursor = [NSCursor arrowCursor]; break; case PointerStyle::VSplit: case PointerStyle::VSizeBar: case PointerStyle::WindowNSize: case PointerStyle::WindowSSize: pCursor = [NSCursor resizeUpDownCursor]; break; case PointerStyle::HSplit: case PointerStyle::HSizeBar: case PointerStyle::WindowESize: case PointerStyle::WindowWSize: pCursor = [NSCursor resizeLeftRightCursor]; break; case PointerStyle::RefHand: pCursor = [NSCursor pointingHandCursor]; break; default: pCursor = GetSalData()->getCursor( mePointerStyle ); if( pCursor == nil ) { assert( false && "unmapped cursor" ); pCursor = [NSCursor arrowCursor]; } break; } return pCursor; } void AquaSalFrame::SetPointer( PointerStyle ePointerStyle ) { if ( !mpNSWindow ) return; if( ePointerStyle == mePointerStyle ) return; OSX_SALDATA_RUNINMAIN( SetPointer( ePointerStyle ) ) mePointerStyle = ePointerStyle; [mpNSWindow invalidateCursorRectsForView: mpNSView]; } void AquaSalFrame::SetPointerPos( tools::Long nX, tools::Long nY ) { OSX_SALDATA_RUNINMAIN( SetPointerPos( nX, nY ) ) // FIXME: use Cocoa functions // FIXME: multiscreen support CGPoint aPoint = { static_cast(nX + maGeometry.x()), static_cast(nY + maGeometry.y()) }; CGDirectDisplayID mainDisplayID = CGMainDisplayID(); CGDisplayMoveCursorToPoint( mainDisplayID, aPoint ); } void AquaSalFrame::Flush() { if( !(mbGraphics && mpGraphics && mpNSView && mbShown) ) return; OSX_SALDATA_RUNINMAIN( Flush() ) [mpNSView setNeedsDisplay: YES]; // outside of the application's event loop (e.g. IntroWindow) // nothing would trigger paint event handling // => fall back to synchronous painting if( mbForceFlush || ImplGetSVData()->maAppData.mnDispatchLevel <= 0 ) { mbForceFlush = false; mpGraphics->Flush(); // Related: tdf#155266 skip redisplay of the view when forcing flush // It appears that calling -[NSView display] overwhelms some Intel Macs // so only flush the graphics and skip immediate redisplay of the view. if( ImplGetSVData()->maAppData.mnDispatchLevel <= 0 ) [mpNSView display]; } } void AquaSalFrame::Flush( const tools::Rectangle& rRect ) { if( !(mbGraphics && mpGraphics && mpNSView && mbShown) ) return; OSX_SALDATA_RUNINMAIN( Flush( rRect ) ) NSRect aNSRect = { { static_cast(rRect.Left()), static_cast(rRect.Top()) }, { static_cast(rRect.GetWidth()), static_cast(rRect.GetHeight()) } }; VCLToCocoa( aNSRect, false ); [mpNSView setNeedsDisplayInRect: aNSRect]; // outside of the application's event loop (e.g. IntroWindow) // nothing would trigger paint event handling // => fall back to synchronous painting if( mbForceFlush || ImplGetSVData()->maAppData.mnDispatchLevel <= 0 ) { mbForceFlush = false; mpGraphics->Flush( rRect ); // Related: tdf#155266 skip redisplay of the view when forcing flush // It appears that calling -[NSView display] overwhelms some Intel Macs // so only flush the graphics and skip immediate redisplay of the view. if( ImplGetSVData()->maAppData.mnDispatchLevel <= 0 ) [mpNSView display]; } } void AquaSalFrame::SetInputContext( SalInputContext* pContext ) { if (!pContext) { mnICOptions = InputContextFlags::NONE; return; } mnICOptions = pContext->mnOptions; if(!(pContext->mnOptions & InputContextFlags::Text)) return; } void AquaSalFrame::EndExtTextInput( EndExtTextInputFlags nFlags ) { // tdf#82115 Commit uncommitted text when a popup menu is opened // The Windows implementation of this method commits or discards the native // input method session. It appears that very few, if any, macOS // applications discard the uncommitted text when cancelling a session so // always commit the uncommitted text. SalFrameWindow *pWindow = static_cast(mpNSWindow); if (pWindow && [pWindow isKindOfClass:[SalFrameWindow class]]) [pWindow endExtTextInput:nFlags]; } OUString AquaSalFrame::GetKeyName( sal_uInt16 nKeyCode ) { static std::map< sal_uInt16, OUString > aKeyMap; if( aKeyMap.empty() ) { sal_uInt16 i; for( i = KEY_A; i <= KEY_Z; i++ ) aKeyMap[ i ] = OUString( sal_Unicode( 'A' + (i - KEY_A) ) ); for( i = KEY_0; i <= KEY_9; i++ ) aKeyMap[ i ] = OUString( sal_Unicode( '0' + (i - KEY_0) ) ); for( i = KEY_F1; i <= KEY_F26; i++ ) { aKeyMap[ i ] = "F" + OUString::number(i - KEY_F1 + 1); } aKeyMap[ KEY_DOWN ] = OUString( u'\x21e3' ); aKeyMap[ KEY_UP ] = OUString( u'\x21e1' ); aKeyMap[ KEY_LEFT ] = OUString( u'\x21e0' ); aKeyMap[ KEY_RIGHT ] = OUString( u'\x21e2' ); aKeyMap[ KEY_HOME ] = OUString( u'\x2196' ); aKeyMap[ KEY_END ] = OUString( u'\x2198' ); aKeyMap[ KEY_PAGEUP ] = OUString( u'\x21de' ); aKeyMap[ KEY_PAGEDOWN ] = OUString( u'\x21df' ); aKeyMap[ KEY_RETURN ] = OUString( u'\x21a9' ); aKeyMap[ KEY_ESCAPE ] = "esc"; aKeyMap[ KEY_TAB ] = OUString( u'\x21e5' ); aKeyMap[ KEY_BACKSPACE ]= OUString( u'\x232b' ); aKeyMap[ KEY_SPACE ] = OUString( u'\x2423' ); aKeyMap[ KEY_DELETE ] = OUString( u'\x2326' ); aKeyMap[ KEY_ADD ] = "+"; aKeyMap[ KEY_SUBTRACT ] = "-"; aKeyMap[ KEY_DIVIDE ] = "/"; aKeyMap[ KEY_MULTIPLY ] = "*"; aKeyMap[ KEY_POINT ] = "."; aKeyMap[ KEY_COMMA ] = ","; aKeyMap[ KEY_LESS ] = "<"; aKeyMap[ KEY_GREATER ] = ">"; aKeyMap[ KEY_EQUAL ] = "="; aKeyMap[ KEY_OPEN ] = OUString( u'\x23cf' ); aKeyMap[ KEY_TILDE ] = "~"; aKeyMap[ KEY_BRACKETLEFT ] = "["; aKeyMap[ KEY_BRACKETRIGHT ] = "]"; aKeyMap[ KEY_SEMICOLON ] = ";"; aKeyMap[ KEY_QUOTERIGHT ] = "'"; aKeyMap[ KEY_RIGHTCURLYBRACKET ] = "}"; aKeyMap[ KEY_NUMBERSIGN ] = "#"; aKeyMap[ KEY_COLON ] = ":"; /* yet unmapped KEYCODES: aKeyMap[ KEY_INSERT ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_CUT ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_COPY ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_PASTE ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_UNDO ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_REPEAT ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_FIND ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_PROPERTIES ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_FRONT ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_CONTEXTMENU ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_MENU ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_HELP ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_HANGUL_HANJA ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_DECIMAL ] = OUString( sal_Unicode( ) ); aKeyMap[ KEY_QUOTELEFT ]= OUString( sal_Unicode( ) ); aKeyMap[ KEY_CAPSLOCK ]= OUString( sal_Unicode( ) ); aKeyMap[ KEY_NUMLOCK ]= OUString( sal_Unicode( ) ); aKeyMap[ KEY_SCROLLLOCK ]= OUString( sal_Unicode( ) ); */ } OUStringBuffer aResult( 16 ); sal_uInt16 nUnmodifiedCode = (nKeyCode & KEY_CODE_MASK); std::map< sal_uInt16, OUString >::const_iterator it = aKeyMap.find( nUnmodifiedCode ); if( it != aKeyMap.end() ) { if( (nKeyCode & KEY_SHIFT) != 0 ) aResult.append( u'\x21e7' ); // shift if( (nKeyCode & KEY_MOD1) != 0 ) aResult.append( u'\x2318' ); // command if( (nKeyCode & KEY_MOD2) != 0 ) aResult.append( u'\x2325' ); // alternate if( (nKeyCode & KEY_MOD3) != 0 ) aResult.append( u'\x2303' ); // control aResult.append( it->second ); } return aResult.makeStringAndClear(); } static void getAppleScrollBarVariant(StyleSettings &rSettings) { bool bIsScrollbarDoubleMax = true; // default is DoubleMax CFStringRef AppleScrollBarType = CFSTR("AppleScrollBarVariant"); if( AppleScrollBarType ) { CFStringRef ScrollBarVariant = static_cast(CFPreferencesCopyAppValue( AppleScrollBarType, kCFPreferencesCurrentApplication )); if( ScrollBarVariant ) { if( CFGetTypeID( ScrollBarVariant ) == CFStringGetTypeID() ) { // TODO: check for the less important variants "DoubleMin" and "DoubleBoth" too CFStringRef DoubleMax = CFSTR("DoubleMax"); if (DoubleMax) { if ( !CFStringCompare(ScrollBarVariant, DoubleMax, kCFCompareCaseInsensitive) ) bIsScrollbarDoubleMax = true; else bIsScrollbarDoubleMax = false; CFRelease(DoubleMax); } } CFRelease( ScrollBarVariant ); } CFRelease(AppleScrollBarType); } GetSalData()->mbIsScrollbarDoubleMax = bIsScrollbarDoubleMax; CFStringRef jumpScroll = CFSTR("AppleScrollerPagingBehavior"); if( jumpScroll ) { CFBooleanRef jumpStr = static_cast(CFPreferencesCopyAppValue( jumpScroll, kCFPreferencesCurrentApplication )); if( jumpStr ) { if( CFGetTypeID( jumpStr ) == CFBooleanGetTypeID() ) rSettings.SetPrimaryButtonWarpsSlider(jumpStr == kCFBooleanTrue); CFRelease( jumpStr ); } CFRelease( jumpScroll ); } } static Color getNSBoxBackgroundColor(NSColor* pSysColor) { // Figuring out what a NSBox will draw for windowBackground, etc. seems very difficult. // So just draw to a 1x1 surface and read what actually gets drawn // This is similar to getPixel #if defined OSL_BIGENDIAN struct { unsigned char b, g, r, a; } aPixel; #else struct { unsigned char a, r, g, b; } aPixel; #endif // create a one-pixel bitmap context CGContextRef xOnePixelContext = CGBitmapContextCreate( &aPixel, 1, 1, 8, 32, GetSalData()->mxRGBSpace, uint32_t(kCGImageAlphaNoneSkipFirst) | uint32_t(kCGBitmapByteOrder32Big)); NSGraphicsContext* graphicsContext = [NSGraphicsContext graphicsContextWithCGContext:xOnePixelContext flipped:NO]; NSRect rect = { NSZeroPoint, NSMakeSize(1, 1) }; NSBox* pBox = [[NSBox alloc] initWithFrame: rect]; [pBox setBoxType: NSBoxCustom]; [pBox setFillColor: pSysColor]; SAL_WNODEPRECATED_DECLARATIONS_PUSH // setBorderType first deprecated in macOS 10.15 [pBox setBorderType: NSNoBorder]; SAL_WNODEPRECATED_DECLARATIONS_POP [pBox displayRectIgnoringOpacity: rect inContext: graphicsContext]; [pBox release]; CGContextRelease(xOnePixelContext); return Color(aPixel.r, aPixel.g, aPixel.b); } static Color getColor( NSColor* pSysColor, const Color& rDefault, NSWindow* pWin ) { Color aRet( rDefault ); if( pSysColor ) { // transform to RGB SAL_WNODEPRECATED_DECLARATIONS_PUSH // "'colorUsingColorSpaceName:device:' is deprecated: first deprecated in macOS 10.14 - // Use -colorUsingType: or -colorUsingColorSpace: instead" NSColor* pRBGColor = [pSysColor colorUsingColorSpaceName: NSDeviceRGBColorSpace device: [pWin deviceDescription]]; SAL_WNODEPRECATED_DECLARATIONS_POP if( pRBGColor ) { CGFloat r = 0, g = 0, b = 0, a = 0; [pRBGColor getRed: &r green: &g blue: &b alpha: &a]; aRet = Color( int(r*255.999), int(g*255.999), int(b*255.999) ); } } return aRet; } static vcl::Font getFont( NSFont* pFont, sal_Int32 nDPIY, const vcl::Font& rDefault ) { vcl::Font aResult( rDefault ); if( pFont ) { aResult.SetFamilyName( GetOUString( [pFont familyName] ) ); aResult.SetFontHeight( static_cast(ceil([pFont pointSize] * 72.0 / static_cast(nDPIY))) ); aResult.SetItalic( ([pFont italicAngle] != 0.0) ? ITALIC_NORMAL : ITALIC_NONE ); // FIMXE: bold ? } return aResult; } void AquaSalFrame::getResolution( sal_Int32& o_rDPIX, sal_Int32& o_rDPIY ) { OSX_SALDATA_RUNINMAIN( getResolution( o_rDPIX, o_rDPIY ) ) if( ! mpGraphics ) { AcquireGraphics(); ReleaseGraphics( mpGraphics ); } mpGraphics->GetResolution( o_rDPIX, o_rDPIY ); } void AquaSalFrame::UpdateDarkMode() { if (@available(macOS 10.14, iOS 13, *)) { switch (MiscSettings::GetDarkMode()) { case 0: // auto default: [NSApp setAppearance: nil]; break; case 1: // light [NSApp setAppearance: [NSAppearance appearanceNamed: NSAppearanceNameAqua]]; break; case 2: // dark [NSApp setAppearance: [NSAppearance appearanceNamed: NSAppearanceNameDarkAqua]]; break; } } } bool AquaSalFrame::GetUseDarkMode() const { if (!mpNSView) return false; bool bUseDarkMode(false); if (@available(macOS 10.14, iOS 13, *)) { NSAppearanceName match = [mpNSView.effectiveAppearance bestMatchFromAppearancesWithNames: @[ NSAppearanceNameAqua, NSAppearanceNameDarkAqua]]; bUseDarkMode = [match isEqualToString: NSAppearanceNameDarkAqua]; } return bUseDarkMode; } bool AquaSalFrame::GetUseReducedAnimation() const { return [[NSWorkspace sharedWorkspace] accessibilityDisplayShouldReduceMotion]; } // on OSX-Aqua the style settings are independent of the frame, so it does // not really belong here. Since the connection to the Appearance_Manager // is currently done in salnativewidgets.cxx this would be a good place. // On the other hand VCL's platform independent code currently only asks // SalFrames for system settings anyway, so moving the code somewhere else // doesn't make the anything cleaner for now void AquaSalFrame::UpdateSettings( AllSettings& rSettings ) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( UpdateSettings( rSettings ) ) SAL_WNODEPRECATED_DECLARATIONS_PUSH // "'lockFocus' is deprecated: first deprecated in macOS 10.14 - To draw, subclass NSView // and implement -drawRect:; AppKit's automatic deferred display mechanism will call // -drawRect: as necessary to display the view." if (![mpNSView lockFocusIfCanDraw]) return; SAL_WNODEPRECATED_DECLARATIONS_POP SAL_WNODEPRECATED_DECLARATIONS_PUSH // "'setCurrentAppearance:' is deprecated: first deprecated in macOS 12.0 - Use // -performAsCurrentDrawingAppearance: to temporarily set the drawing appearance, or // +currentDrawingAppearance to access the currently drawing appearance." [NSAppearance setCurrentAppearance: mpNSView.effectiveAppearance]; SAL_WNODEPRECATED_DECLARATIONS_POP StyleSettings aStyleSettings = rSettings.GetStyleSettings(); bool bUseDarkMode(GetUseDarkMode()); OUString sThemeName(!bUseDarkMode ? u"sukapura_svg" : u"sukapura_dark_svg"); aStyleSettings.SetPreferredIconTheme(sThemeName, bUseDarkMode); Color aControlBackgroundColor(getNSBoxBackgroundColor([NSColor controlBackgroundColor])); Color aWindowBackgroundColor(getNSBoxBackgroundColor([NSColor windowBackgroundColor])); Color aUnderPageBackgroundColor(getNSBoxBackgroundColor([NSColor underPageBackgroundColor])); // Background Color aStyleSettings.BatchSetBackgrounds( aWindowBackgroundColor, false ); aStyleSettings.SetLightBorderColor( aWindowBackgroundColor ); aStyleSettings.SetActiveTabColor(aWindowBackgroundColor); Color aInactiveTabColor( aWindowBackgroundColor ); aInactiveTabColor.DecreaseLuminance( 32 ); aStyleSettings.SetInactiveTabColor( aInactiveTabColor ); Color aShadowColor = getColor( [NSColor systemGrayColor ], aStyleSettings.GetShadowColor(), mpNSWindow ); aStyleSettings.SetShadowColor( aShadowColor ); // tdf#152284 for DarkMode brighten it, while darken for BrightMode NSColor* pDarkColor = bUseDarkMode ? [[NSColor systemGrayColor] highlightWithLevel: 0.5] : [[NSColor systemGrayColor] shadowWithLevel: 0.5]; Color aDarkShadowColor = getColor( pDarkColor, aStyleSettings.GetDarkShadowColor(), mpNSWindow ); aStyleSettings.SetDarkShadowColor(aDarkShadowColor); // get the system font settings vcl::Font aAppFont = aStyleSettings.GetAppFont(); sal_Int32 nDPIX = 72, nDPIY = 72; getResolution( nDPIX, nDPIY ); aAppFont = getFont( [NSFont systemFontOfSize: 0], nDPIY, aAppFont ); aStyleSettings.SetToolbarIconSize( ToolbarIconSize::Large ); // TODO: better mapping of macOS<->LibreOffice font settings vcl::Font aLabelFont( getFont( [NSFont labelFontOfSize: 0], nDPIY, aAppFont ) ); aStyleSettings.BatchSetFonts( aAppFont, aLabelFont ); vcl::Font aMenuFont( getFont( [NSFont menuFontOfSize: 0], nDPIY, aAppFont ) ); aStyleSettings.SetMenuFont( aMenuFont ); vcl::Font aTitleFont( getFont( [NSFont titleBarFontOfSize: 0], nDPIY, aAppFont ) ); aStyleSettings.SetTitleFont( aTitleFont ); aStyleSettings.SetFloatTitleFont( aTitleFont ); vcl::Font aTooltipFont(getFont([NSFont toolTipsFontOfSize: 0], nDPIY, aAppFont)); aStyleSettings.SetHelpFont(aTooltipFont); Color aAccentColor( getColor( [NSColor controlAccentColor], aStyleSettings.GetAccentColor(), mpNSWindow ) ); aStyleSettings.SetAccentColor( aAccentColor ); Color aHighlightColor( getColor( [NSColor selectedTextBackgroundColor], aStyleSettings.GetHighlightColor(), mpNSWindow ) ); aStyleSettings.SetHighlightColor( aHighlightColor ); Color aHighlightTextColor( getColor( [NSColor selectedTextColor], aStyleSettings.GetHighlightTextColor(), mpNSWindow ) ); aStyleSettings.SetHighlightTextColor( aHighlightTextColor ); aStyleSettings.SetLinkColor(getColor( [NSColor linkColor], aStyleSettings.GetLinkColor(), mpNSWindow ) ); aStyleSettings.SetVisitedLinkColor(getColor( [NSColor purpleColor], aStyleSettings.GetVisitedLinkColor(), mpNSWindow ) ); #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wdeprecated-declarations" Color aMenuHighlightColor( getColor( [NSColor selectedMenuItemColor], aStyleSettings.GetMenuHighlightColor(), mpNSWindow ) ); #pragma clang diagnostic pop aStyleSettings.SetMenuHighlightColor( aMenuHighlightColor ); Color aMenuHighlightTextColor( getColor( [NSColor selectedMenuItemTextColor], aStyleSettings.GetMenuHighlightTextColor(), mpNSWindow ) ); aStyleSettings.SetMenuHighlightTextColor( aMenuHighlightTextColor ); aStyleSettings.SetMenuColor( aWindowBackgroundColor ); Color aMenuTextColor( getColor( [NSColor textColor], aStyleSettings.GetMenuTextColor(), mpNSWindow ) ); aStyleSettings.SetMenuTextColor( aMenuTextColor ); aStyleSettings.SetMenuBarTextColor( aMenuTextColor ); aStyleSettings.SetMenuBarRolloverTextColor( aMenuTextColor ); aStyleSettings.SetMenuBarHighlightTextColor(aStyleSettings.GetMenuHighlightTextColor()); aStyleSettings.SetListBoxWindowBackgroundColor( aWindowBackgroundColor ); aStyleSettings.SetListBoxWindowTextColor( aMenuTextColor ); aStyleSettings.SetListBoxWindowHighlightColor( aMenuHighlightColor ); aStyleSettings.SetListBoxWindowHighlightTextColor( aMenuHighlightTextColor ); // FIXME: Starting with macOS Big Sur, coloring has changed. Currently there is no documentation which system color should be // used for some button states and for selected tab text. As a workaround the current OS version has to be considered. This code // has to be reviewed once issue is covered by documentation. // Set text colors for buttons and their different status according to OS settings, typically white for selected buttons, // black otherwise NSOperatingSystemVersion aOSVersion = { .majorVersion = 10, .minorVersion = 16, .patchVersion = 0 }; Color aControlTextColor(getColor([NSColor controlTextColor], COL_BLACK, mpNSWindow )); Color aSelectedControlTextColor(getColor([NSColor selectedControlTextColor], COL_BLACK, mpNSWindow )); Color aAlternateSelectedControlTextColor(getColor([NSColor alternateSelectedControlTextColor], COL_WHITE, mpNSWindow )); aStyleSettings.SetWindowColor(aWindowBackgroundColor); aStyleSettings.SetListBoxWindowBackgroundColor(aWindowBackgroundColor); aStyleSettings.SetDialogTextColor(aControlTextColor); aStyleSettings.SetButtonTextColor(aControlTextColor); aStyleSettings.SetActionButtonTextColor(aControlTextColor); aStyleSettings.SetRadioCheckTextColor(aControlTextColor); aStyleSettings.SetGroupTextColor(aControlTextColor); aStyleSettings.SetLabelTextColor(aControlTextColor); aStyleSettings.SetWindowTextColor(aControlTextColor); aStyleSettings.SetFieldTextColor(aControlTextColor); aStyleSettings.SetFieldRolloverTextColor(aControlTextColor); aStyleSettings.SetFieldColor(aControlBackgroundColor); aStyleSettings.SetDefaultActionButtonTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetFlatButtonTextColor(aControlTextColor); aStyleSettings.SetDefaultButtonRolloverTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetDefaultActionButtonRolloverTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetActionButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetFlatButtonRolloverTextColor(aControlTextColor); aStyleSettings.SetDefaultButtonPressedRolloverTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetDefaultActionButtonPressedRolloverTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetFlatButtonPressedRolloverTextColor(aControlTextColor); if ([NSProcessInfo.processInfo isOperatingSystemAtLeastVersion: aOSVersion]) { aStyleSettings.SetDefaultButtonTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetButtonPressedRolloverTextColor(aSelectedControlTextColor); aStyleSettings.SetActionButtonPressedRolloverTextColor(aSelectedControlTextColor); } else { aStyleSettings.SetButtonPressedRolloverTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetActionButtonPressedRolloverTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetDefaultButtonTextColor(aSelectedControlTextColor); } aStyleSettings.SetWorkspaceColor(aUnderPageBackgroundColor); aStyleSettings.SetHelpColor(aControlBackgroundColor); aStyleSettings.SetHelpTextColor(aControlTextColor); aStyleSettings.SetToolTextColor(aControlTextColor); // Set text colors for tabs according to OS settings aStyleSettings.SetTabTextColor(aControlTextColor); aStyleSettings.SetTabRolloverTextColor(aControlTextColor); if ([NSProcessInfo.processInfo isOperatingSystemAtLeastVersion: aOSVersion]) aStyleSettings.SetTabHighlightTextColor(aSelectedControlTextColor); else aStyleSettings.SetTabHighlightTextColor(aAlternateSelectedControlTextColor); aStyleSettings.SetCursorBlinkTime( mnBlinkCursorDelay ); aStyleSettings.SetCursorSize(1); // no mnemonics on macOS aStyleSettings.SetOptions( aStyleSettings.GetOptions() | StyleSettingsOptions::NoMnemonics ); getAppleScrollBarVariant(aStyleSettings); // set scrollbar size aStyleSettings.SetScrollBarSize( static_cast([NSScroller scrollerWidthForControlSize:NSControlSizeRegular scrollerStyle:NSScrollerStyleLegacy]) ); // images in menus false for MacOSX aStyleSettings.SetPreferredUseImagesInMenus( false ); aStyleSettings.SetHideDisabledMenuItems( true ); aStyleSettings.SetPreferredContextMenuShortcuts( false ); rSettings.SetStyleSettings( aStyleSettings ); // don't draw frame around each and every toolbar ImplGetSVData()->maNWFData.mbDockingAreaAvoidTBFrames = true; SAL_WNODEPRECATED_DECLARATIONS_PUSH // "'unlockFocus' is deprecated: first deprecated in macOS 10.14 - To draw, subclass NSView // and implement -drawRect:; AppKit's automatic deferred display mechanism will call // -drawRect: as necessary to display the view." [mpNSView unlockFocus]; SAL_WNODEPRECATED_DECLARATIONS_POP } const SystemEnvData* AquaSalFrame::GetSystemData() const { return &maSysData; } void AquaSalFrame::Beep() { OSX_SALDATA_RUNINMAIN( Beep() ) NSBeep(); } void AquaSalFrame::SetPosSize( tools::Long nX, tools::Long nY, tools::Long nWidth, tools::Long nHeight, sal_uInt16 nFlags) { if (!mpNSWindow && !Application::IsBitmapRendering()) return; OSX_SALDATA_RUNINMAIN( SetPosSize( nX, nY, nWidth, nHeight, nFlags ) ) SalEvent nEvent = PreparePosSize(nX, nY, nWidth, nHeight, nFlags); if (Application::IsBitmapRendering()) return; if( [mpNSWindow isMiniaturized] ) [mpNSWindow deminiaturize: NSApp]; // expand the window NSRect aFrameRect = [mpNSWindow frame]; NSRect aContentRect = [NSWindow contentRectForFrameRect: aFrameRect styleMask: mnStyleMask]; // position is always relative to parent frame NSRect aParentContentRect; if( mpParent ) { if( AllSettings::GetLayoutRTL() ) { if( (nFlags & SAL_FRAME_POSSIZE_WIDTH) != 0 ) nX = static_cast(mpParent->maGeometry.width()) - nWidth - 1 - nX; else nX = static_cast(mpParent->maGeometry.width()) - aContentRect.size.width - 1 - nX; } NSRect aParentFrameRect = [mpParent->mpNSWindow frame]; aParentContentRect = [NSWindow contentRectForFrameRect: aParentFrameRect styleMask: mpParent->mnStyleMask]; } else aParentContentRect = maScreenRect; // use screen if no parent CocoaToVCL( aContentRect ); CocoaToVCL( aParentContentRect ); bool bPaint = false; if( (nFlags & (SAL_FRAME_POSSIZE_WIDTH | SAL_FRAME_POSSIZE_HEIGHT)) != 0 ) { if( nWidth != aContentRect.size.width || nHeight != aContentRect.size.height ) bPaint = true; } // use old window pos if no new pos requested if( (nFlags & SAL_FRAME_POSSIZE_X) != 0 ) aContentRect.origin.x = nX + aParentContentRect.origin.x; if( (nFlags & SAL_FRAME_POSSIZE_Y) != 0) aContentRect.origin.y = nY + aParentContentRect.origin.y; // use old size if no new size requested if( (nFlags & SAL_FRAME_POSSIZE_WIDTH) != 0 ) aContentRect.size.width = nWidth; if( (nFlags & SAL_FRAME_POSSIZE_HEIGHT) != 0) aContentRect.size.height = nHeight; VCLToCocoa( aContentRect ); // do not display yet, we need to update our backbuffer { [mpNSWindow setFrame: [NSWindow frameRectForContentRect: aContentRect styleMask: mnStyleMask] display: NO]; } UpdateFrameGeometry(); if (nEvent != SalEvent::NONE) CallCallback(nEvent, nullptr); if( mbShown && bPaint ) { // trigger filling our backbuffer SendPaintEvent(); // now inform the system that the views need to be drawn [mpNSWindow display]; } } void AquaSalFrame::GetWorkArea( AbsoluteScreenPixelRectangle& rRect ) { if (!mpNSWindow) { if (Application::IsBitmapRendering()) rRect = AbsoluteScreenPixelRectangle(AbsoluteScreenPixelPoint(0, 0), AbsoluteScreenPixelSize(1024, 768)); return; } OSX_SALDATA_RUNINMAIN( GetWorkArea( rRect ) ) NSScreen* pScreen = [mpNSWindow screen]; if( pScreen == nil ) pScreen = [NSScreen mainScreen]; NSRect aRect = [pScreen visibleFrame]; CocoaToVCL( aRect ); rRect.SetLeft( static_cast(aRect.origin.x) ); rRect.SetTop( static_cast(aRect.origin.y) ); rRect.SetRight( static_cast(aRect.origin.x + aRect.size.width - 1) ); rRect.SetBottom( static_cast(aRect.origin.y + aRect.size.height - 1) ); } SalFrame::SalPointerState AquaSalFrame::GetPointerState() { OSX_SALDATA_RUNINMAIN_UNION( GetPointerState(), state ) SalPointerState state; state.mnState = 0; // get position NSPoint aPt = [mpNSWindow mouseLocationOutsideOfEventStream]; CocoaToVCL( aPt, false ); state.maPos = Point(static_cast(aPt.x), static_cast(aPt.y)); NSEvent* pCur = [NSApp currentEvent]; bool bMouseEvent = false; if( pCur ) { bMouseEvent = true; switch( [pCur type] ) { case NSEventTypeLeftMouseDown: state.mnState |= MOUSE_LEFT; break; case NSEventTypeLeftMouseUp: break; case NSEventTypeRightMouseDown: state.mnState |= MOUSE_RIGHT; break; case NSEventTypeRightMouseUp: break; case NSEventTypeOtherMouseDown: state.mnState |= ([pCur buttonNumber] == 2) ? MOUSE_MIDDLE : 0; break; case NSEventTypeOtherMouseUp: break; case NSEventTypeMouseMoved: break; case NSEventTypeLeftMouseDragged: state.mnState |= MOUSE_LEFT; break; case NSEventTypeRightMouseDragged: state.mnState |= MOUSE_RIGHT; break; case NSEventTypeOtherMouseDragged: state.mnState |= ([pCur buttonNumber] == 2) ? MOUSE_MIDDLE : 0; break; default: bMouseEvent = false; break; } } if( bMouseEvent ) { unsigned int nMask = static_cast([pCur modifierFlags]); if( (nMask & NSEventModifierFlagShift) != 0 ) state.mnState |= KEY_SHIFT; if( (nMask & NSEventModifierFlagControl) != 0 ) state.mnState |= KEY_MOD3; if( (nMask & NSEventModifierFlagOption) != 0 ) state.mnState |= KEY_MOD2; if( (nMask & NSEventModifierFlagCommand) != 0 ) state.mnState |= KEY_MOD1; } else { // FIXME: replace Carbon by Cocoa // Cocoa does not have an equivalent for GetCurrentEventButtonState // and GetCurrentEventKeyModifiers. // we could try to get away with tracking all events for modifierKeys // and all mouse events for button state in VCL_NSApplication::sendEvent, // but it is unclear whether this will get us the same result. // leave in GetCurrentEventButtonState and GetCurrentEventKeyModifiers for now // fill in button state UInt32 nState = GetCurrentEventButtonState(); state.mnState = 0; if( nState & 1 ) state.mnState |= MOUSE_LEFT; // primary button if( nState & 2 ) state.mnState |= MOUSE_RIGHT; // secondary button if( nState & 4 ) state.mnState |= MOUSE_MIDDLE; // tertiary button // fill in modifier state nState = GetCurrentEventKeyModifiers(); if( nState & shiftKey ) state.mnState |= KEY_SHIFT; if( nState & controlKey ) state.mnState |= KEY_MOD3; if( nState & optionKey ) state.mnState |= KEY_MOD2; if( nState & cmdKey ) state.mnState |= KEY_MOD1; } return state; } KeyIndicatorState AquaSalFrame::GetIndicatorState() { return KeyIndicatorState::NONE; } void AquaSalFrame::SimulateKeyPress( sal_uInt16 /*nKeyCode*/ ) { } void AquaSalFrame::SetPluginParent( SystemParentData* ) { // plugin parent may be killed unexpectedly by // plugging process; //TODO: implement } bool AquaSalFrame::MapUnicodeToKeyCode( sal_Unicode , LanguageType , vcl::KeyCode& ) { // not supported yet return false; } LanguageType AquaSalFrame::GetInputLanguage() { //TODO: implement return LANGUAGE_DONTKNOW; } void AquaSalFrame::SetMenu( SalMenu* pSalMenu ) { OSX_SALDATA_RUNINMAIN( SetMenu( pSalMenu ) ) AquaSalMenu* pMenu = static_cast(pSalMenu); SAL_WARN_IF( pMenu && !pMenu->mbMenuBar, "vcl", "setting non menubar on frame" ); mpMenu = pMenu; if( mpMenu ) mpMenu->setMainMenu(); } void AquaSalFrame::SetExtendedFrameStyle( SalExtStyle nStyle ) { if ( !mpNSWindow ) { mnExtStyle = nStyle; return; } OSX_SALDATA_RUNINMAIN( SetExtendedFrameStyle( nStyle ) ) if( (mnExtStyle & SAL_FRAME_EXT_STYLE_DOCMODIFIED) != (nStyle & SAL_FRAME_EXT_STYLE_DOCMODIFIED) ) [mpNSWindow setDocumentEdited: (nStyle & SAL_FRAME_EXT_STYLE_DOCMODIFIED) ? YES : NO]; mnExtStyle = nStyle; } SalFrame* AquaSalFrame::GetParent() const { return mpParent; } void AquaSalFrame::SetParent( SalFrame* pNewParent ) { bool bShown = mbShown; // remove from child list if (bShown) Show(false); mpParent = static_cast(pNewParent); // insert to correct parent and paint Show( bShown ); } void AquaSalFrame::UpdateFrameGeometry() { mbGeometryDidChange = false; if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( UpdateFrameGeometry() ) // keep in mind that view and window coordinates are lower left // whereas vcl's are upper left // update screen rect NSScreen * pScreen = [mpNSWindow screen]; if( pScreen ) { NSRect aNewScreenRect = [pScreen frame]; if (!NSEqualRects(maScreenRect, aNewScreenRect)) { mbGeometryDidChange = true; maScreenRect = aNewScreenRect; } NSArray* pScreens = [NSScreen screens]; if( pScreens ) { unsigned int nNewDisplayScreenNumber = [pScreens indexOfObject: pScreen]; if (maGeometry.screen() != nNewDisplayScreenNumber) { mbGeometryDidChange = true; maGeometry.setScreen(nNewDisplayScreenNumber); } } } NSRect aFrameRect = [mpNSWindow frame]; NSRect aContentRect = [NSWindow contentRectForFrameRect: aFrameRect styleMask: mnStyleMask]; NSRect aTrackRect = { NSZeroPoint, aContentRect.size }; if (!NSEqualRects(maTrackingRect, aTrackRect)) { mbGeometryDidChange = true; maTrackingRect = aTrackRect; } // convert to vcl convention CocoaToVCL( aFrameRect ); CocoaToVCL( aContentRect ); if (!NSEqualRects(maContentRect, aContentRect) || !NSEqualRects(maFrameRect, aFrameRect)) { mbGeometryDidChange = true; maContentRect = aContentRect; maFrameRect = aFrameRect; maGeometry.setX(static_cast(aContentRect.origin.x)); maGeometry.setY(static_cast(aContentRect.origin.y)); maGeometry.setWidth(static_cast(aContentRect.size.width)); maGeometry.setHeight(static_cast(aContentRect.size.height)); maGeometry.setLeftDecoration(static_cast(aContentRect.origin.x - aFrameRect.origin.x)); maGeometry.setRightDecoration(static_cast((aFrameRect.origin.x + aFrameRect.size.width) - (aContentRect.origin.x + aContentRect.size.width))); maGeometry.setTopDecoration(static_cast(aContentRect.origin.y - aFrameRect.origin.y)); maGeometry.setBottomDecoration(static_cast((aFrameRect.origin.y + aFrameRect.size.height) - (aContentRect.origin.y + aContentRect.size.height))); } } void AquaSalFrame::CaptureMouse( bool bCapture ) { /* Remark: we'll try to use a pidgin version of capture mouse on MacOSX (neither carbon nor cocoa) there is a CaptureMouse equivalent (in Carbon there is TrackMouseLocation but this is useless to use since it is blocking) However on cocoa the active frame seems to get mouse events also outside the window, so we'll try to forward mouse events to the capture frame in the hope that one of our frames gets a mouse event. This will break as soon as the user activates another app, but a mouse click will normally lead to a release of the mouse anyway. Let's see how far we get this way. Alternatively we could use one large overlay window like we did for the carbon implementation, however that is resource intensive. */ if( bCapture ) s_pCaptureFrame = this; else if( ! bCapture && s_pCaptureFrame == this ) s_pCaptureFrame = nullptr; } void AquaSalFrame::ResetClipRegion() { doResetClipRegion(); } void AquaSalFrame::doResetClipRegion() { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( ResetClipRegion() ) // release old path and indicate no clipping CGPathRelease( mrClippingPath ); mrClippingPath = nullptr; if( mpNSView && mbShown ) [mpNSView setNeedsDisplay: YES]; [mpNSWindow setOpaque: YES]; [mpNSWindow invalidateShadow]; } void AquaSalFrame::BeginSetClipRegion( sal_uInt32 nRects ) { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( BeginSetClipRegion( nRects ) ) // release old path if( mrClippingPath ) { CGPathRelease( mrClippingPath ); mrClippingPath = nullptr; } if( maClippingRects.size() > SAL_CLIPRECT_COUNT && nRects < maClippingRects.size() ) { std::vector().swap(maClippingRects); } maClippingRects.clear(); maClippingRects.reserve( nRects ); } void AquaSalFrame::UnionClipRegion( tools::Long nX, tools::Long nY, tools::Long nWidth, tools::Long nHeight ) { // #i113170# may not be the main thread if called from UNO API SalData::ensureThreadAutoreleasePool(); if( nWidth && nHeight ) { NSRect aRect = { { static_cast(nX), static_cast(nY) }, { static_cast(nWidth), static_cast(nHeight) } }; VCLToCocoa( aRect, false ); maClippingRects.push_back( CGRectMake(aRect.origin.x, aRect.origin.y, aRect.size.width, aRect.size.height) ); } } void AquaSalFrame::EndSetClipRegion() { if ( !mpNSWindow ) return; OSX_SALDATA_RUNINMAIN( EndSetClipRegion() ) if( ! maClippingRects.empty() ) { mrClippingPath = CGPathCreateMutable(); CGPathAddRects( mrClippingPath, nullptr, maClippingRects.data(), maClippingRects.size() ); } if( mpNSView && mbShown ) [mpNSView setNeedsDisplay: YES]; [mpNSWindow setOpaque: (mrClippingPath != nullptr) ? NO : YES]; [mpNSWindow setBackgroundColor: [NSColor clearColor]]; // shadow is invalidated when view gets drawn again } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */